Nuxeo supports the following PostgreSQL version:
The database needs to be configured to work properly with Nuxeo. Some settings must be changed in order for Nuxeo to work. Other settings should be changed in order for Nuxeo to have good performance.
This FAQ will give you some hints to configure your database, but please refer to your DBA or the PostgreSQL documentation for more information (http://wiki.postgresql.org/wiki/Tuning_Your_PostgreSQL_Server).
Most settings have to be changed in the
postgresql.conf file. Some SQL commands may have to be executed directly at the PostgreSQL console (
You shouldn't need to change this, because two-phase commit (XA) isn't used in basic configurations.
However, if you use XA datasources (see the JDBC Datasource Configuration documentation for more on this), you will need to update the default
max_prepared_transactions settings. You can use the same value as
max_prepared_transactions = 100
For instance (please change the password and the
nuxeo.conf file of your instance accordingly):
$ createuser -U postgres -W -P nuxeo $ createdb -U postgres -W -O nuxeo -E UTF8 nuxeo
Or from the psql command prompt:
CREATE ROLE nuxeo WITH PASSWORD 'nuxeo' LOGIN; CREATE DATABASE nuxeo ENCODING 'UTF8' OWNER nuxeo;
Note that using the
UTF8 encoding for your database is important.
Edit the file
pg_hba.conf, make sure that the
nuxeo user (or
all users, if the
nuxeo user is not individually listed), have an authentication
md5, rather than
ident. Otherwise you will have some
FATAL: Ident authentication failed for user "nuxeo" errors in the logs.
# TYPE DATABASE USER CIDR-ADDRESS METHOD # "local" is for Unix domain socket connections only local all all md5 # IPv4 local connections: host all all 127.0.0.1/32 md5
If you have chosen to configure your PostgreSQL server to use TLS/SSL connections, then you should use the standard PostgreSQL JDBC connection parameters to specify the configuration parameters.
For a fully secure communication, use the
sslrootcert JDBC connection parameters with
For instance you could define:
One of the most important thing for PostgreSQL is to have lots of shared buffers along with free memory that can be used by the system cache.
Refer to the section Adapt Your Configuration to Your Hardware to get the correct value.
If you plan to use 1 GB of shared buffers, update the following property in your
shared_buffers = 1GB
Then restart PostgreSQL.
If there is no enough shared memory you will have an explicit error message and you should try with a bigger
Once PostgreSQL starts properly with the chosen
kernel.shmmax value, it should be registered in the
/etc/sysctl.conf file by adding the following line.
kernel.shmmax = <SHMMAX_VALUE>
effective_cache_size PostgreSQL is informed of how much memory the system will use for disk caching. This is used as a hint when executing queries, note that this memory is not allocated by PostgreSQL itself.
effective_cache_size value, you need to run your application once and check how much memory is used by system cache. This can be done using the free command and using the
free value for
-/+ buffers/cache. Then you can set this value in the configuration:
effective_cache_size = 1536MB
work_mem parameter allows PostgreSQL to do larger in-memory sorts which is much faster than disk sorts. Keep in mind that
work_mem size will be taken up by each connection (a pool of 20 connections will take up to 20 * work_mem).
work_mem = 12MB
maintenance_work_mem will speed up the vacuum procedure.
maintenance_work_mem = 512MB
wal_buffers can be increase to improve write access time. Increasing the checkpoint segments and completion target helps to spread out the writes.
wal_buffers = 16MB checkpoint_segments = 32 checkpoint_completion_target=0.8
random_page_cost parameter influences this query planner's choice. The value to use depends on your disk IO, here are some advices:
# random_page_cost = 4 # Slow disk AWS EBS # random_page_cost = 2 # Recent HD # random_page_cost = 1 # SSD
PostgreSQL computes statistics on table content in order to plan for the best performance when executing queries with joins and complex filters. The default configuration is
default_statistics_target set to the value 100 which can lead to not accurate enough estimates. We recommend a higher value like 500:
default_statistics_target = 500
If the database is already populated you need to execute
ANALYZE to update the statistics.
The autovacuum is enabled by default in PostgreSQL.
Exceptionally, a full vacuum can be done at downtime to recover disk space, it should be followed with a
We recommend the following setting to have a meaningful log in production
log_line_prefix = '%t [%p]: [%l-1] user=%u,db=%d ' log_min_duration_statement = 400 log_checkpoints=on log_lock_waits=on log_temp_files=0 log_autovacuum_min_duration=0 log_statement = ddl track_functions=pl
Also to have an effective monitoring you should install the following extensions: pg_stat_statements, pg_buffercache
Install postgresql-contrib package.
sudo apt-get install postgresql-contrib
Login to your database as postgres user and create the extensions.
sudo su postgres -c'psql -U postgres -d nuxeo -c"CREATE EXTENSION pg_buffercache;"' sudo su postgres -c'psql -U postgres -d nuxeo -c"CREATE EXTENSION pg_stat_statements;"'
Update the configuration.
shared_preload_libraries = 'pg_stat_statements, auto_explain' pg_stat_statements.max = 10000 pg_stat_statements.track = top auto_explain.log_min_duration = -1 auto_explain.log_analyze = 'false'
Restart the database.
sudo /etc/init.d/postgresql restart
Here are some values that can be used as a starting point for a dedicated server depending on the amount of memory.
|Amount of RAM||4 GB||8 GB||16 GB||32 GB|
If you want accent-insensitive full-text search, you'll need to install the unaccent contribution, create a new text search configuration, and specify its use in Nuxeo.
Unaccent is described here https://www.postgresql.org/docs/current/static/unaccent.html.
Install it by running
unaccent.sql script. For Ubuntu users, this file is located at
Connect to your database and run the following instructions:
CREATE TEXT SEARCH CONFIGURATION fr ( COPY = french ); ALTER TEXT SEARCH CONFIGURATION fr ALTER MAPPING FOR asciihword, asciiword, hword_asciipart, hword, hword_part, word WITH unaccent, french_stem;
Then replace in your
default-repository-config.xml file the
french analyzer by the one you just defined (
fr in this example).
When doing mass import you can disable the full-text trigger and full-text index. They must be dropped after a successful login on a running Nuxeo DM because DDL SQL commands are executed on the first access.
ALTER TABLE fulltext DISABLE TRIGGER nx_trig_ft_update; DROP INDEX IF EXISTS fulltext_fulltext_idx; DROP INDEX IF EXISTS fulltext_fulltext_description_idx; DROP INDEX IF EXISTS fulltext_fulltext_title_idx;
After the import you can update the full-text column like this:
ALTER TABLE fulltext ENABLE TRIGGER nx_trig_ft_update; -- Let the trigger update the fulltext column UPDATE fulltext SET fulltext = ''::TSVECTOR WHERE length(fulltext) is NULL; CREATE INDEX fulltext_fulltext_title_idx ON fulltext USING gin (nx_to_tsvector(fulltext_title::character varying)); CREATE INDEX fulltext_fulltext_description_idx ON fulltext USING gin (nx_to_tsvector(fulltext_description::character varying)); CREATE INDEX fulltext_fulltext_idx ON fulltext USING gin (nx_to_tsvector(fulltext::character varying));
Changing temporarily the PostgreSQL configuration during the import provides performance benefits:
full_page_writes = off fsync = off synchronous_commit = off
Do not do this if there is already any data you care about in any database on your PostgreSQL cluster, Please refer to the PostgreSQL reference manual.
If you want to use the PostgreSQL
uuid type instead of the default
varchar(36) (this is the case when you set
nuxeo.vcs.idtype=uuid in the
you need to create a new operator to support
GIN index on
CREATE OPERATOR CLASS _uuid_ops DEFAULT FOR TYPE _uuid USING gin AS OPERATOR 1 &&(anyarray, anyarray), OPERATOR 2 @>(anyarray, anyarray), OPERATOR 3 <@(anyarray, anyarray), OPERATOR 4 =(anyarray, anyarray), FUNCTION 1 uuid_cmp(uuid, uuid), FUNCTION 2 ginarrayextract(anyarray, internal, internal), FUNCTION 3 ginqueryarrayextract(anyarray, internal, smallint, internal, internal, internal, internal), FUNCTION 4 ginarrayconsistent(internal, smallint, anyarray, integer, internal, internal, internal, internal), STORAGE uuid;
Possible error if you don't create the operator described above is:
ERROR: data type uuid has no default operator class for access method "gin"
PostgreSQL is very good, very fast, and is our reference database. To be completely honest it still has some limitations that other databases don't have:
- Its full-text engine doesn't know how to do full-text phrase search, which means we have to use a slower and not completely equivalent workaround when phrase search is required (NXP-6720).
If you have a database configuration problem and you want to fill a JIRA ticket, there are some information to report:
The PostgreSQL server state: is it dedicated or shared, which OS, how many CPU, RAM, is it a virtual machine...
How much memory is available on the database server (
Amount of Nuxeo documents and PostgreSQL configuration. Using the following commands:
Log in on your database with the postgres user.
sudo su - postgres
Get the Nuxeo SQL script to dump your configuration.
wget --no-check-certificate https://gist.github.com/bdelbosc/5507796/raw/dump-nuxeo-postgres-config.sql
Execute the SQL script with psql against the Nuxeo DB (not the default database named postgres).
psql nuxeo -f dump-nuxeo-postgres-config.sql
Note that this SQL script can generate some errors logs when optional tables are not present or depending on the PostgreSQL version. The result file is still relevant.
Attach the output file located in
/tmp/pgconf.txtinto the JIRA ticket. An example of such a result file is here, so that you can check that yours has the correct format.
- If you are monitoring the slowest queries (See monitoring section) you can zip and attach the
postgresqllog file to the JIRA ticket.